[1]张路,王利华,桂和荣,等.土壤重金属胁迫与植物相关miRNA的研究进展[J].北方园艺,2017,41(18):180-185.[doi:10.11937/bfyy.20165188]
ZHANG Lu,WANG Lihua,GUI Herong,et al.Progress on the Soil Heavy Metal Stress and Associated miRNA of Plant[J].Northern Horticulture,2017,41(18):180-185.[doi:10.11937/bfyy.20165188]
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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]
卷:
第41卷
期数:
2017年18
页码:
180-185
栏目:
出版日期:
2017-09-30
- Title:
-
Progress on the Soil Heavy Metal Stress and Associated miRNA of Plant
- 作者:
-
张路1; 王利华2; 桂和荣1; 王华森2
-
1.安徽理工大学 地球与环境学院,安徽 淮南 232001;2.浙江农林大学 农业与食品科学学院,浙江 临安 311300
- Author(s):
-
ZHANG Lu1; WANG Lihua2; GUI Herong1; WANG Huasen2
-
1.College of Earth Science and Environment,Anhui University of Science and Technology,Huainan,Anhui 232001;2.School of Agriculture and Food Science,Zhejiang A & F University,Lin′an,Zhejiang 311300
-
- 关键词:
-
土壤重金属; 胁迫; microRNA; 基因调控
- Keywords:
-
soil heavy metals; stress; miRNA; gene regulation
- DOI:
-
10.11937/bfyy.20165188
- 文献标志码:
-
A
- 摘要:
-
重金属污染是指由于人类对矿山过度开采、金属冶炼与加工及其它化工操作,造成的铅(Pb)、汞(Hg)、镉(Cd)、铬(Cr)等重金属以各种形式进入生态环境中,在其中留存、积累和迁移而造成的生态污染,土壤重金属污染的治理已成为目前环保关注的焦点。植物在长期进化过程中形成了根系富集、细胞壁束缚、跨膜转运等多种应对重金属胁迫的应答机制。microRNA(miRNA)是一类调控基因表达的重要小分子RNA,通过调控靶基因的表达而参与植物的生长发育、胁迫应答等生理代谢活动,它们同样在植物应答重金属胁迫过程中发挥重要作用。该研究对土壤中重金属污染现状进行了综述,并阐述了重金属胁迫条件下相关miRNA表达调控情况,以期为更好地研究植物miRNA应答重金属胁迫的调控机制提供参考依据。
- Abstract:
-
Heavy metal pollution is the ecological pollution caused by the heavy metals such as lead (Pb),mercury (Hg),cadmium (Cd) and chromium (Cr).These various forms of heavy metals get into the ecological environment due to human over-exploitation of the mining,metal smelting,and processing as well as other chemical operations,and they could retent,accumulate and migrate into the ecological environment.The treatment of soil heavy metal pollution has become the focus of environmental protection.In the long evolutionary process,plants have formed diverse mechanisms to deal with the heavy metal stress such as root-enriching,wall-bounding and membrane-transporting.microRNA (miRNA) are an important class of small RNA molecules involved in the growth and development,stress-responsing,and other physiological and metabolic activities of plants by regulating expression of the target genes.They also played an important role in the process of dealing with the heavy metal stress in plants.In this study,the situation of heavy metal pollution and regulation of miRNA expression under heavy metal stress were reviewed.It could provide references for better studying the responsive and regulatory mechanisms of plant miRNA.
参考文献/References:
[1]VALLE B L,ULMER D D.Biochemical effects of mercury,cadmium,and lead[J].Annu Rev Biochem,1972,41:91-128. [2]VERBRUGGEN N,HERMANS C,SCHAT H.Mechanisms to cope with arsenic or cadmium excess in plants[J].Curr Opin Plant Biol,2009,12(3):364-372.
[3]CLEMENS S.Molecular mechanisms of plant metal tolerance and homeostasis[J].Planta,2001,212:475-486.
[4]XU J,ZHU Y,GE Q,et al.Comparative physiological responses of Solanum nigrum and Solanum torvum to cadmium stress[J].New Phytol,2012,196(1):125-138.
[5]LEE R C,FEINBAUM R L,AMBROS V.The C.elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14[J].Cell,1993,75:843-854.
[6]CHEN X.A microRNA as a translational repressor of APETALA2 in Arabidopsis flower development[J].Science,2004,303:2022-2025.
[7]YANG Z M,CHEN J.A potential role of microRNAs in plant response to metal toxicity[J].Metallomics,2013,5(9):1184-1190.
[8]LIU C Z,HUANG Y Z,LEI M,et al.Assessment of ecological risks of heavy metal contaminated soils in the Zijiang river region by toxicity characteristic leaching procedure[J].Environmental Chemistry,2011,30(9):1582-1589.
[9]孙哲,吴宏霞,唐丽娜,等.镉对三种主要农作物毒害效应的研究进展[J].山东农业科学,2009(11):86-89.
[10]陈世军,韦美玉.镉对辣椒幼苗生长与生理特性的影响[J].江苏农业科学,2009(4):180-182.
[11]付世景,宗良纲,孙静克.镉污染板蓝根生理指标的变化及其对镉积累的研究[J].安徽农业科学,2007(3):649-651.
[12]王辉,张文会.不同浓度的镉胁迫对大豆幼苗生长的影响[J].聊城大学学报,2008(3):79-78.
[13]夏会龙,程文伟,池小雅.镉胁迫对甘蔗生长及生理性状的影响[J].中国土壤与肥料,2009(1):42-45.
[14]黎美清,杜岩,葛宪民,等.某有色金属矿矿区长住居民镉铅食物链效应调查[J].应用预防医学,2009,15(3):97-99.
[15]孙贤斌,李玉成,王宁.铅在小麦和玉米中活性形态和分布的比较研究[J].农业环境科学学报,2005,24(4):666-669.
[16]江行玉,赵可夫.铅污染下芦苇体内铅的分布和铅胁迫相关蛋白质[J].植物生理与分子生物学学报,2002,28(3):169-174.
[17]宋玉芝.土壤铅污染对水稻生长影响的研究[J].南京气象学院学报,2005,28(4):536-541.
[18]李德明,贺立红,朱祝军.几种重金属离子对小白菜种子萌发及生理活性的影响[J].种子,2005,24(6):27-29.
[19]王慧忠,何翠屏,赵楠.铅对草坪植物生物量与叶绿素水平的影响[J].草业科学,2003,20(6):73-75.
[20]胡月红.国内外汞污染分布状况研究综述[J].环境保护科学,2008,34(1):38-41.
[21]党民团,刘娟.中国汞污染的现状及防治对策[J].应用化工,2005,34(7):394-396.
[22]HOGBERG H T,KINSNER-OVASKAINEN A,COECKE S,et al.MRNA expression is a relevant tool to identify developmental neurotoxicants using an in vitro approach[J].Toxicol Sci,2010,113:95-115.
[23]刘钊钊,唐浩,吴健,等.土壤汞污染及其修复技术研究进展[J].环境工程,2013,31(5):80-109.
[24]MORENO F N,ANDERSON C W N,STEWART R B,et al.Phytoremediation of mercury contaminated mine tailings by induced plant mercury accumulation[J].Environmental Practice,2004,6(2):165-175.
[25]陈宏,陈玉成,杨学春.硫化钠对土壤汞、镉、铅的植物可利用性的调控[J].生态环境,2003,12(3):285-288.
[26]张琴,张崇玉,刘文拔,等.施用有机肥对高粱苗期吸收汞的影响[J].安徽农业科学,2008,36(33):14655-14656.
[27]王新,贾永锋.土壤砷污染及修复技术[J].环境科学与技术,2007,30(2):107-109.
[28]冯丽娟.矿山中砷的环境污染特征[J].能源与环境,2008(3):112.
[29]朱云集,王晨阳,马元喜,等.砷胁迫对小麦根系生长及活性氧代谢的影响[J].生态学报,2000,20(4):707-710.
[30]胡家恕,童富淡,邵爱萍,等.砷对大豆种子萌发的伤害[J].浙江大学学报,1996,22(2):121-125.
[31]XIE F L,HUANG S Q,GUO K,et al.Computational identification of novel microRNAs and targets in Brassica napus[J].Febs Lett,2007,581(7):1464-1474.
[32]SUNKER R,ZHU J K.Novel and stress-regulated microRNAs and other small RNAs from Arabidopsis[J].Plant Cell,2004,16:2001-2019.
[33]HUANG S Q,PENG J,QIU C X,et al.Heavy metal-regulated new microRNAs from rice[J].Inorg Biochem,2009,103 (2):282-287.
[34]DING Y F,CHEN Z,ZHU C.Microarray-based analysis of cadmium-responsive microRNAs in rice (Oryza sativa)[J].J Exp Bot,2011,62(10):3563-3573.
[35]FANG X,ZHAO Y,MA Q,et al.Identification and comparative analysis of cadmium tolerance-associated miRNAs and their targets in two soybean genotypes[J].PLoS One,2013,8(12):1471.
[36]ZHOU Z S,SONG J B,YANG Z M.Genome-wide identification of Brassica napus microRNAs and their targets in response to cadmium[J].J Exp Bot,2012,63(12):4597-4613.
[37]ZHOU Z S,ZENG H Q,LIU Z P,et al.Genome-wide identification of Medicago truncatula microRNAs and their targets reveals their differential regulation by heavy metal[J].Plant Cell Environ,2012,35(1):86-99.
[38]ZHOU Z S,HUANG S Q,YANG Z M.Bioinformatic identification and expression analysis of new microRNAs from Medicago truncatula[J].Biochem Biophys Res Commun,2008,374:538-542.
[39]丁艳菲.水稻镉胁迫应答相关microRNA的分离与功能研究[D].杭州:浙江大学,2012.
[40]LIU Q,ZHANG H.Molecular identification and analysis of arsenite stress-responsive mi RNAs in rice[J].Agric Food Chem,2012,60(26):6524-6536.
[41]CHEN L,WANG T,ZHAO M,et al.Identification of aluminum-responsive microRNAs in Medicago truncatula by genome-wide high-throughput sequencing[J].Planta,2011,235 (2):375-386.
[42]SRIVASTAVA S,SRIVASTAVA A K,SUPRASANNA P,et al.Identification and profiling of arsenic stress-induced micro RNAs in Brassica juncea[J].J Exp Bot,2013,64(1):303-315.
[43]朱乐毅.miR528在水稻应答砷胁迫中的功能研究[D].杭州:浙江农林大学,2014.
[44]SUNKAR R,KAPPOR A,ZHU J K.Posttranscriptional induction of two Cu/Zn superoxide dismutase genes in Arabidopsis is mediated by downregulation of miR398 and important for oxidative stress tolerance[J].Plant Cell,2006,18(8):2051-2065.
[45]YANG Z M,CHEN J.A potential role of microRNAs in plant response to metal toxicity[J].Metallomics,2013,5(9):1184-1190.
[46]ZHANG L W,SONG J B,SHU X X,et al.miR395 is involved in detoxification of cadmium in Brassica napus[J].Hazard Mat,2013,250:204-211.
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